Fruit feeding and orienting apparatus



Nov. 4, 1 947. a. c. COONS 2,429,991

FRUIT FEEDING AND ORIENTING APPARATUS Original Filed Aug. 26. 1940 4 Sheets-Sheet 1 INVENTOR 8w? TON C. Coo/v.5

ATTORNEY Nov. 4, 1947. a. c. cooNs FRUIT FEEDING AND ORIENTING APPARATUS 1940 4 Sheets-Sheet 2 Original Filed Aug. 26

INVENTOR BURTON C. Coo/v.5

ATTORNEY Nov. 4, 1947. B. c. cooNs FRUIT FEEDING AND ORIENTING APPARATUS Original Filed Aug. 26. 1940 4 Sheets-Sheet 3 m. C Y d 3 N n n i iv a fl -I Nov. 4, 1947. a. c. COONS FRUIT FEEDING AND ORIBNTING APPARATUS Original Filed Aug. 26. 1940 4 Sheets-Sheet 4 INVENTOR BURfO/V C coo/v.5

BY G I ATTORNEZ Patented Nov. 4, 1947 FRUIT FEEDING AND OBIENTING APPARATUS Burton C. Coons, San Jose, Calif., assignor to Food Machinery Corporation, San Jose, Calif a corporation of Delaware Original application August 26, 1940, Serial No. 354,240, now Patent No. 2,375,350, dated May 3, 1945. Divided and this application February 8, 1944, Serial No. 521,523

13 Claims.

The present invention relates to a machine for handling fruit and more particularly to a fruit feeding and orienting apparatus to properly position fruit, such as cherries. in a mobile fruit holding means preparatory to subsequent operations to be performed on the fruit.

This application is a division of my copending application Serial No. 354,240 filed August 26, 1940, for Fruit handling machine.

An object of the present invention is to provide an improved automatic machine for feeding stem bearing fruit to a fruit holding and supporting means.

Another object is to provide an automatic feed mechanism for righting unstemmed fruit and for transferring the same in righted position to fruit holding and supporting means.

A further object is to provide a turret structure having fruit holding and supporting means for receiving the righted fruit from the automatic feed mechanism and for presenting the fruit in oriented condition to a fruit preparation machine.

Other objects and advantages of the present invention will become apparent from the following description taken in connection with the accompanying drawings, in which:

Fig. 1 is a side elevation of the complete machine of the present invention.

Fig. 2 is a plan view of the machine shown in Fig. 1.

Fig. 3 is an enlarged side view of the automatic feed mechanism of the machine together with a portion of the feed conveyor and the turret associated therewith, certain portions being broken away and others shown in section.

Fig. 4 is a rear view of the automatic feed mechanism taken along line 4-4 of Fig. 1, certain portions being broken away and others being shown in section.

Fig. 5 is an enlarged plan view of the transfer cage unit of the automatic feed mechanism as seen from line 5-5 in Fig. 3.

Fig. 6 shows a side view of the transfer cage unit of Fig. 3 showing the transfer baskets thereof in locked and open position.

Fig. 7 is a section of the transfer cage unit taken along line 1-1 in Fig. 5 showing the trans fer baskets in closed position.

Fig. 8 illustrates the detailed view of a portion of a transfer basket.

Fig. 9 is a fragmentary side view of the transfer cage and certain associated parts illustrating the operation thereof and showing primarily the manner in which a cherry is righted as it falls into the transfer cage.

Fig. 10 is an enlarged fragmentary section taken along lines lB-lli in Fig. 1 showing the drive mechanism of the machine, certain portions being broken away.

Fig. 11 is an enlarged section of the turret index mechanism taken along lines I l-l I in Fig. 10.

The fruit handling machine embodying the present invention, as will be best seen in Figs. 1 and 2 comprises a feed conveyor A, an automatic feed mechanism B and a turret C, by which the fruit is transmitted in proper position to special mechanisms for treatment, such as stemming, pitting, reshaping and ejecting, as is well described in my above mentioned copending application.

In the operation of the machine, the cherries are supplied by the conveyor A to the automatic feed mechanism B which rights the cherries and keeps them in proper position for reception by fruit supporting means on the turret C.

Feed conveyor The feed conveyor A as will be seen from Figs. 1 and 2 comprises a frame structure I within which pairs of sprocket wheels 2, 3, 4 and 5 are rotatably mounted by means of shafts 8. "I, 3 and 9 respectively. Trained around these sprocket wheels are endless chains 12 and 13 provided with transverse bars it, each carrying a series of fruit receiving buckets l3.

The shaft 6 of the feed conveyor A is provided with a bevel gear l8 fixed thereto and cooperating with a bevel gear 19 fixed to a shaft 20 rotatably mounted within a bearing 23 supported by the conveyor frame i in any convenient manner. Keyed to the shaft 20 is a sprocket wheel 24 and a drive chain 25 is trained around the sprocket wheel 24 and a sprocket wheel 28. The sprocket wheel 26 is fixed to a shaft 21 of a speed reduction mechanism 29 of an electric motor 30, so that upon operation of the motor 30 the shaft 20 is rotated, eflecting rotation of the sprocket wheels 2 and causing travel of the conveyor chains I! and I3 and the buckets IS in the direction indicated by the arrow ill in Fig. 1.

Mounted within the frame structure I adjacent the conveyor chains l2 and I3 is a hopper 35 for receiving the cherries to be pitted. The cherries may be supplied to the hopper 35 by means of a horizontal conveyor belt 38 and control gate 31 as illustrated in Fig. 1, or may be delivered to the hopper by means of a chute from the source of supply. If desired, the conveyor means for deiivering the cherries to the hopper 35 may be omitted and the cherries may be dumped directly from their boxes into the hopper above referred to.

During the travel of the conveyor chains l2 and iii in the direction as indicated by the arrow 3| in Fig. 1 each series of buckets I passes through the hopper 35 and each bucket receives one cherry at a time and conveys the same to the automatic feed mechanism B into which the cherries are discharged from the buckets while the same pass around the sprocket wheel 4 as will be clearly seen from Figs. 1, 2 and 3.

In case two cherries are elevated by the fruit receiving cups l5 from the hopper 35, as shown in Fig. 1, the cherry not received within the bucket It will fall into the return chute 38 when the buckets travel around the sprocket wheels 5 and will be returned into the hopper 35.

In the drawings of the present application four fruit receiving buckets l6 have been illustrated on each one of the transverse bars II, the automatic feed mechanism B and the turret C also being illustrated for handling four cherries at a time. However, the capacity of the machine may be increased by increasing the fruit handling capacity of these devices, as will be obvious to those skilled in the art.

Any other feed conveyor structure may be employed in connection with the machine described herein, or the cherries may be fed manually into the automatic feed mechanism B, provided however that the cherries are supplied to the automatic feed mechanism in proper timed relation therewith and in such numbers at a time as required by the capacity of the machine.

Automatic feed mechanism The purpose of the automatic feed mechanism B which receives the cherries from the feed conveyor A is to righten the cherries and to place the same in fruit holding cups M8 or the turret C with the stems of the cherries in upward direction. The automatic feed mechanism operates in timed relation with the conveyor A and the turret C so that the transfer of the fruit to the fruit holding cups of the turret C is accomplished when the same are in a certain predetermined indexed position.

The automatic feed mechanism B is supported on the frame structure I of the feed conveyor A and is operated by the feed conveyor mechanism. However, if desired the automatic feed mechanism may be supported by a separate frame structure or other parts of the frame structure of the machine, and it may be independently operated by a separate drive mechanism associated with the motor 39, as will be obvious to those skilled in the art. In either case, a proper timing in the operation of the feed conveyor A, automatic feed mechanism B, and turret C may be easily obtained by means of speed reduction gears, or the like, because all of these devices are driven from a single source of motive power.

Referring now more specifically to the automatic feed mechanism B. as shown in Figs. 1 to 9 4 inclusive, it will be noted that the same comprises a plurality of stationary chutes or baskets 40. one chute being provided for each receiving bucket ii of a single transverse bar M of the conveyor A. These chutes 4|) are mounted on a chute frame 4| provided with perforations 42 which form inlet openings for admitting the cherries into the chute. The upper edges of the openlugs 42 are rounded, as best seen at 42 in Fig. 3, for purposes which will be explained later on. Each of these chutes is formed by a plurality of spaced, downwardly converging wires or rods 43 of diflerent lengths, which form at their lower ends a discharge opening 44. The chute frame 4| is supported by brackets 45 secured to the frame I of the feed conveyor A of the machine.

The discharge openings 44 of the baskets or chutes 4|! are normally closed by control gates 50 having an upper inclined surface 50. These control gates are pivotaliy mounted on the shaft 8 of the feed conveyor by means of a frame 5|. Stops 52 on the frame 5| engageable with the chute frame 4| hold the control gates in proper chute-closing position,

Pivotally attached to a lug 53 on the frame 5| is a link 54 which in turn is pivotally secured to roller arm 55 pivoted to the frame I of the feed conveyor A at 56. The roller arm 55 carries a roller 51 cooperating with the outer cam surface 58 of a cam 59 keyed to the shaft 8.

Upon rotation of the shaft 8 and cam 59, effected by the travel of the conveyor chain l2 and IS, the roller 51 travels along the outer cam surface 58 and effects a raising and lowering of the roller arm 55. This movement is transferred to the frame 5| by the link 54 and causes a pivotal movement of the frame 5| around the shaft 9 moving the gate members 50 to open the discharge openings 44 of the chutes 49 and to subsequently close the case.

Mounted below the chute 4|) is a transfer cage 55 provided with a plurality of openings 66 (see Figs. 5 and 6), annular rims 61 with rounded upper edges 61', and a transverse bar 68 comprising vertical sleeve bearings Ill slidably mounting the transfer cage 55 on guide rods 1| fixed to a transverse bar 12 carried by the brackets 45 (see Fig. 4). A yoke I3 pivotally mounted on the shaft I is connected with the transverse cage 65 by means of links 14 pivoted to the yoke at I5 and to lugs 16 of the transverse bar 68 at The yoke 13 (see Fig. 3) is pivotally connected at to a yoke actuating arm 86 which straddles the shaft 8 and is provided with a roller 81 engaging a camway 89 of the cam 59 previously referred to. The camway 89is eccentric. to the shaft 9 and upon rotation of the same and cam 59 the yoke actuating arm 86 is oscillated, causing raising and lowering of the yoke 13 and the cage 65 supported thereby,

The cage 65 further comprises tubular members 90 secured to the lower portions of the rims 61 and in alignment with the openings 69 thereof. The rims 61 and tubular members 90 form righting member 99- for righting the fruit. Transfer baskets 9|, each consisting of two sections 92 and 93 provided with downwardly converging flngers or rods 94 and 95, are fixed to transverse shafts 99 and 99 by means of set screws Illll. These transverse shafts are rotatably supported within bearings forming integral parts of the transfer cage 65, as will be best seen from Figs. 5 and I.

Secured to shaft 99 is a link I95 provided with a pin I06 (see Figs. 5 and 6) engaging a slot IIII of a link IBB fixed to shaft 93 so that rotation of the shaft 99 in one direction causes a corresponding rotation of shaft 38 in an opposite direction. Also fixed to shaft 33 is a crank arm III) provided with a pin III adapted to engage a notch II2 of the vertical arm II3 of a lock lever Ill pivotally mounted on the transverse bar 68 or the cage 55 by means of a stud shaft II5. A horizontal arm IIG of the lock lever H4 is adapted to engage a trip III (see Figs. 3 and 4) carried by the transverse bar I2, during the upward movement of the cage 55 and the lock lever lid is thereby rocked, disengaging notch II2 from pin III and releasing the crank arm III). A spring II8 (see Figs. 5 and 6) interposed between the stud shaft H5 and lock lever II4 urges the latter toward locking position so that the crank arm III) is immediately locked when the pin I II is adjacent the notch II2.

A coil spring I2I interposed between the shaft 98 and the cage 55 urges the basket sections 92 and 93 of the transfer baskets BI to closed position, as will be best seen from Fig. 5. A control arm I22 fixed in a predetermined position on shaft 98 is adapted to abut against crank arm III) and determine the extent of closure of the transfer baskets 32 and 93 (see Fig. 9).

Attached to one of the brackets 45 (see Fig. 4) is a bearing bracket I25 within which an actuating rod I25 is siidably mounted. The upper end of this rod carries a roller I21 which engages a cam I28 fixed to shaft 8 adjacent to cam 59. The lower end of the actuating rod I26 is pivotaliy connected to a trip arm I30 by means of a link I3I and pivot pins I32 and I33, and the trip arm I30 in turn is pivotally secured to one of the brackets 45 at I34. The free end I35 of this trip arm I30 extends into the path of the crank arm IIII engaging the same from below thereof. The actuating arm I26 is further provided with a collar I36 fixed thereto and interpositioned between this collar and the bearing bracket I25 is a coil spring I31 for maintaining the roller I21 in engagement with the cam I28.

The gate members 50 above referred to are provided with downwardly extending pins I38 which are concentric to the openings 66 of the transfer gate 55, when the same is in a position as shown in Fig. 1, The pins I38 carry flexible basket cleaners I39. which may be preferably made from a piece of rubber tube. These basket cleaners I33 are adapted to enter into the transfer cage and baskets and dislodge any fruit adhering to the same.

The rims 51 of the transfer cage 65 are provided with notches I40 (see Fig. 7) through which the rubber tubes I39 flip out (see Fig. 9) when the frame 5| and gate members 50 are moved to their outward position, as shown in dotted lines in Fig. 9 and in full lines in Fig. 3.

From Fig. 4 it will be noted that the chutes 40 are so positioned with respect to the feed conveyor A and transfer cage 65 that the cherries discharged from the buckets I6 into the chutes 40 are fed to the transfer cage 65 and fall through the tubular members 90 into the transfer baskets 5| which place the fruit into fruit holding cups of the turret C with the stems of the cherries in upward position.

When the cherries are discharged from the buckets I6 of the feed conveyor A into the chutes ill, the parts of the automatic feed mechanism B are in a position as shown in Fig. 1.

The cherries falling from the feed conveyor into the chute III will be righted during their free fall due to the air resistance upon the stems and consequent turning of the fruit. This righting of the fruit is assisted by the rounded edges 42 of the chute frame 4| adjacent the openings 42 against which the stems may strike while the cherries fall through the openings 42. The cherries fall, therefore, upon the control gates 50. with the stems pointing in substantially upward direction. and due to the inclined surface 50 of the gates, the cherries will roll down the same and assume a position as shown in Fig. 1, or any other position. with the stems pointing either upwardly within the chutes or protruding laterally therefrom at various angles through the open spaces between the wires or rods 43 (see Fig. 4)

Occasionally cherries will fall into the chutes III with the stem of the fruit pointing in a downward direction, and in such case. the fruit will not be righted during their fall and the free end of the stems will contact the gates 50 and slide downward the inclined surface W of the same and project laterally through the open spaces between the rods 43 of the chutes so that the cherries will assume a position as shown in Fig. 9.

During the above described operation, i. e., while the cherries are positioned within the chutes 40, the transfer cage 65 is in its lowermost position, and the transfer baskets 82 and 93 are locked in open position.

During the continuous rotation of the shaft 8 of the feed conveyor A the cams 59 and I28 will be rotated in a direction as indicated by an arrow in Fig. 1, and the cam portion N5 of the cam I28 will disengage from the roller I21 of the actuating rod I26 and permit the same to move upwardly under the influence of spring I31, so that the free end I35 of the trip arm I30 disengages the crank arm IIU.

Thereupon the inner cam track 89 and cam 53 which engages the roller 81 causes upward movement of the actuating arm 86 which in turn effects a pivotal movement of the yoke 13 around shaft I and raises the links H and the transfer cage unit 65 to its uppermost position, as shown in Figs. 3 and 9.

During the above described upward movement of the transfer cage 65 the basket cleaners I 39 on the gate members 50 project into the transfer basket BI and dislodge any cherries which may adhere or stick to the transfer baskets, so that the same will fall downwardly therefrom.

Shortly before the transfer cage 65 reaches its uppermost position the horizontal portion IIB of the lock lever IN strikes against the trip 1 and rocks the lock lever and disengages the notch I I2 of the same from the pin III of the crank arm I III. This unlocks the transfer basket portions 92 and 93 and the same move immediately to closed position under the influence of the spring I2I. The extent of closing of the basket portions 92 and 33 is controlled by the control arm I22, which abuts against the crank arm III), as will be seen from Fig. 3. The transfer case 65 and the control gates 50 are now in a position as shown in full lines in Fig. 9.

When the parts are in the position as above described, the portion I46 of cam 53 engages the roller 51 (see Fig. 3) and raises the roller arm 55, which pivots around the pivot pins 56. Due to the fact that the roller arm 55 is pivotally connected to the frame 5I by means of the link 51, frame 5| pivots around shaft II and the gates 50 move outwardly away from the chute 48 to the position as shown in Fig. 3. The cherries drop 7 from the chute into the transfer cage and are held within the transfer baskets 3 I. which at this time are in closed position.

While the control gates 50 move outwardly, as above described, the basket cleaners I39 flip outwardly from within the transfer cage 65 through the notches I40 in a manner as clearly illustrated m dotted lines in Fig. 9.

While the cherries fall downwardly from the chutes 40 into the transfer baskets 9|, they pass through the openings 66, rims 61 and tubular members 90 of the righting members 90 associated therewith. The rims 61 engage the stems of the cherry and while the cherries fall through the tubular members 90 into the baskets 9|, the stems of the fruits are righted into upwardly pointing position.

In this connection, it may be mentioned that when the cherries are positioned within the chutes 40 upon the control gates 50, the stems of the cherries can never assume a straight downward position which would permit them to pass through the righting members 90 ahead of the fruit, in other words, the drupe of the fruit will at all times enter the righting member first. Usually. the stems of the cherries will assume the positions as shown in full lines in Figs. 1 or 9 and when the cherries thereafter drop into the transfer baskets 8|, the stems will always be righted by contact with the rims 61 and tubular members 30 to a substantial vertical position, as best seen from Fig. 3. If the cherries, however, become arranged with their stems pointing upwardly within the chute 40 while they are held therein by the gate members 50, they will fall straight down into the transfer baskets 9| when the gate members move outwardly to a position as shown in Fig. 3, and in this case no additional righting of the cherries within the transfer cage 65 is necessary as the stems of the cherries are already in the desired position.

The angle of inclination of the inclined surfaces 50 of the control gate may be preferably between 45 and 60 degrees, so as to assure the proper positioning of the cherries and to prevent any lateral movement or rotation of the fruit during opening of th control gate which would disalign the cherries with respect to the righting members 90 and tend to pull the stems into the openings 66 ahead of the fruit.

With the cherries positioned within the transfer baskets 9i as above described, cam 69, roller 01, and actuating arm 06 cause a downward movement of yoke 13, links 14, and the transfer cage 65, so as to position the transfer baskets 9| directly above and in close proximity to fruit holding cups I40 of the turret C. Thereupon, the portion I45 of cam I20 strikes the roller I21 and causes a downward movement of the actuating rod I26. This produces an upward movement of the free end I35 of the trip arm I30, which engages the crank arm I I0 and moves the same upwardly to the position as shown in Fig. 6. The pin III of the crank arm IIO enters the slot II! of the lock lever lid, and locks the crank arm I I0 in the position as shown in'Fig. 6.

The above described movement of the crank arm IIO from the position shown in Fig. 3 to the position shown in Fig. 6 causes rotation of the shaft 09 in the direction as shown by the arrow I49 in Fig. 6 and a corresponding rotation in an opposite direction, as indicated by an arrow I60 in Fig. 6, of the shaft 98, in view of the linkage connection I00 and I08 previously referred to. The transfer basket portions 92 and 33 will move to their open position, as shown in Fig. 6. and the cherries held between the fingers at and 36 of the transfer baskets III will drop into the fruit holding cups I48 of the'turret C. as will be best seen from Fig. 4, with the stems of the cherries pointing in an upward direction.

Incident to the downward movement of the transfer cage 65, the portion I46 of cam 5! disengages from the roller 51, and frame 6|, due to its own gravity, returns to its original position as shown in Fig. l, positioning the gate members 50 below the discharge openings of the chutes 40. Thcreupon, the next row of cherries are now discharged into the chutes 40 by the succeeding series of buckets I6 of the feed conveyor A and the cycle of operation of the automatic feed mechanism B repeats during the continuous operation of the machine in the same manner as above described.

Turret frame structure and drive The frame structure of the turret C comprises a frame or standard I60 provided with a bracket I6I upon which the motor 30, previously referred to, is mounted. The upper portion of the base I60 is formed into a spider structure generally indicated at I62, which comprises a plurality of radially extending spider arms such as arms I63, I63 provided with vertically extending portions I60 and HI respectively. The frame portion I60 further comprises a hexagonal central body portion I15 as will be best seen in Figs. 1 and 10.

Rotatably mounted within the vertical portion I68 of the spider arm I63 and the hexagonal portion I15 is a drive shaft I16 provided with a sprocket wheel I11 keyed thereto. Trained around this sprocket wheel I11 and a sprocket wheel I13 secured to the shaft 21 of the gear reduction drive 29 of the motor 30 is a driven chain I19 for driving the drive shaft I16 upon operation of the motor 30. Secured to the drive shaft I16 is a bevel gear I which intermeshes with a bevel gear IBI fixed to a shaft I82 suitably mounted for rotation on the hexagonal body portion I15. The bevel gear I8I is in engagement with a bevel gear I83 keyed to a shaft I85 suitably mounted for rotation on the hexagonal body portion I16. In a similar manner, an index drive shaft I86 (see also Fig. 11) is rotatably mounted within the hexagonal body portion I15 and the vertically extending portion I1I of the spider arm I66. Fixed to the shaft I06 is a bevel gear I81 which intermeshes with the bevel gear I83 previously mentioned.

From the above it will be noted that upon operation of the motor 30, shaft I16 will be rotated to rotate the bevel gear I80 in turn rotating each of the bevel gears I8l, I03 and I81 related thereto to effect operation of the turret indexing mechanism now to be explained.

The upper end of the hexagonal body portion I15 of the turret frame I60 is provided with a stationary vertical stud shaft I9I having threaded portion I92 and I93 (see Figs. 1 and 11). Threadedly secured to the shaft portion I92 are a retaining flange I94 and a lock nut I64, while an adjusting nut I95 and a lock nut I95 are threadectly secured -to the shaft portion I93. Freely rotatable on the stud shaft I9I intermediate the retaining flange I94 and adjusting nut I05 and supported by the latter is the turret C,

which consists of a table I96 provided with a plurality of fruit holding members I48. previously mentioned, and an index plate I 91. This index plate I 91 may be integral with the table I36 or may be a separate part secured to the table in any convenient manner for rotation therewith.

From the above it will be seen that the table I99, the fruit holding means I48 and index plate I91 are adjustable in vertical directions on the stud shaft I 9| by manipulation of the retaining flange I94 and adjusting nut I95 after loosening of the lock nuts I94 and 190", so that the fruit holding members I48 may be properly adjusted with respect to the automatic feed mechanism B.

The fruit holding cups I48 are arranged in rows of four, and these rows are angularly positioned with respect to each other, forming chords of the circle defined by the table I95.

The index plate I91 comprises arcuate faces I99 and elongated radially extending slots 200, as will be best seen from Fig. 10.

The index mechanism generally indicated at 20I (see Figs. 10 and 11) consists of a vertical shaft 202 which is rotatably mounted within a bracket 205 secured to the spider arm I88 and provided near its upper end with a locking plate 206, comprising a cut out portion 201, and an index arm 208 carrying a roller 209.

During the rotation of the shaft 202 and index arm 208 in the direction of the arrow 2I0 in Fig. 10, the roller 209 enters one of the elongated slots 200 of the index plate I91 and causes rotation of the latter in the direction of the arrow 2II until the arcuate face I99 following such slot is in engagement with the locking plate 208 and locked by the peripheral face 2I2 of the same against further rotation.

At this time, the parts of the index mechanism are in a position as shown in Fig. 10, and the roller 209 now leaves the respective slot 200 and the index plate I91 remains in locked position until the roller 209 enters the next slot 200 oi. the index plate I91 and causes further rotation of the same. It will be observed from Fig. 10 that upon entry of the roller 209 into one of the elongated slots 200 of the index plate I91. the cut out portion 201 of the locking plate 206 will be in such a position with respect to the index plate I91 that the latter may rotate without interfering with the locking plate 206.

The elongated slots 200 are disposed at angles of 60 degrees with respect to each other corresponding to the angular position of the rows or series of fruit receiving members I48, and the arcuate faces I99 of the index plate I91 are disposed intermediate the elongated slots 200, as will be clearly seen from Fig. 10.

The index mechanism 20I above described will therefore effect an intermittent rotation oi the turret C, so that a corresponding advancement of the series of fruit holding members I48 to and from the automatic feed mechanism B, as well as to and from stemming, pitting, reshaping and ejecting mechanisms arranged around the turret, as shown in my aforementioned copending application.

Operation In the above description of the construction of the machine the operation of the various parts thereof has been specifically explained. However, for a more complete understanding a rsum of the entire cycle of operation of the machine will now be given wherein the function of the various units will be set forth in proper sequence and timed relation.

It has been stated hereinbefore that the entire mechanism of the machine is operated from a single source of power and it will be noted that upon operation of the motor 30 shafts 20, I18, I82, I88, I are continuously driven at predetermined speeds so as to eflect the operation of the feed conveyor A, automatic feed mechanism B and the turret C.

The shaft I88 operates the index mechanism and causes intermittent rotation of the turret C, so that the series of cups I48 are advanced in intermittent motion past the various fruit handling devices above referred to.

Beginning now the cycle of operation of the machine, it will be noted that the rotation of shaft 20 causes a continuous operation of the feed conveyor A and the fruit receiving buckets I5 thereof supply successive rows of fruit to the chutes 40 of the automatic feed mechanism B of the machine in predetermined intervals.

When a row of fruit is discharged from the feed conveyor A into the chutes 40 of the automatic feed mechanism B the parts of the latter are in a position as shown in Fig. 1. The discharge openings of the chutes 40 are closed by the control gates 50 and the cherries drop upon the inclined surfaces 50 of the gates and roll downwardly along the latter so as to engage themselves with the stems protruding from the chutes 40 substantially in a manner as shown in Figs. 1 and 9.

Thereupon the transfer baskets 05 are raised and their sections 92 and 93 are moved to closed position (see Fig. 9). The control gates 50 are swung to open position and the cherries are dropped into transfer baskets 9 I, While the cherries fall through the righting members they are righted so that their stems point in upward direction.

Incident to the transfer of the cherries from the chutes 40 to the transfer baskets 9|. while the latter remain in their uppermost position, the indexing mechanism 20I rotates the turret C and the series of fruit holding cups is moved into alignment with the automatic feed mechanism B.

Thereupon, the transfer baskets 9| are lowered and subsequently opened and the cherries are placed in righted position into the cups I48 of the series of cups.

While the transfer baskets move downwardly the control gates 50 move to closed position and the next row of cherries is discharged from the feed conveyor A into the chutes 40 and the cycle of the feed mechanism repeats in the same manner as stated above.

Thereupon the index mechanism 20I effects another rotation of the turret C and the series of fruit holding cups is advanced from below the automatic feed mechanism to the position 435 (see Fig. 2). This is a blank position intermediate the automatic feed mechanism B and the stemming mechanism (not shown) and no operations are performed upon the cherries in this position. The same indexing operation of the index mechanism 20I in rotating the turret C places a new and different series of empty fruit holding cups below the feed mechanism B to receive the next series of fruit therefrom.

By the foregoing arrangement the cherries deposited in the cups I48 are all positioned with their stems extending substantially vertical so that they may be engaged by certain operating mechanism about the periphery of the turret C for further handling and particular treatment.

While I have described a particular embodiment of the present invention, it will be understood that various changes and modifications may be made without departing from the spirit of the 11 present invention and the scope of the appended claims.

Having thus described my invention and in what manner the same may be used-what I claim as new and desire to protect by Letter. Patent is:

1. A feed mechanism for fruit pitting machines comprising a chute, means for supplying stem bearing fruit to said chute. a control gate associated with said chute for controlling the discharge of fruit therefrom and including an inclined surface for arranging fruit falling stem end first into the chute in predetermined position relative to the same, means for operating the control gate for discharging the fruit from the chute, and means cooperating with the chute and control gate for receiving the discharged fruit for r hting the same.

2. A fee mechanism for fruit pitting machines comprising a chute formed by a plurality of spaced members, means for supplying fruit to said chute, a control means associated with said chute for controlling the discharge of fruit therefrom including an inclined surface for arranging the fruit in predetermined position in the chute with the stem of the fruit laterally protruding from the chute, means for operating the control means for discharging the fruit from the chute, and means cooperating with the chute and control means for receiving the discharged fruit for righting the same.

3. A fruit handling machine comprising fruit holding means, a substantially vertical chute above said fruit holding means for receiving one unstemmed fruit at a time, a control gate for intercepting the free fall of the fruit within said chute and havingan inclined surface for turning fruit falling into the chute stem end first into a position with its stem extending laterally therefrom, means for opening said control gate for discharging the fruit from the chute, transfer means normally disposed for receiving the fruit from said chute for righting the fruit with its stem extending upwardly and movable toward said fruit holding means for transferring the righted fruit to the same, means for releasing the fruit from said transfer means as the latter arrives at the fruit holding means, and means for operating said control gate and transfer means in timed relation with respect to each other.

4. A feed mechanism for fruit pitting machines comprising a substantially vertical open ended chute formed of spaced members, means for dropping stem bearing fruit one at a time into the chute, means in said chute and cooperating therewith for intercepting the free fall of fruit therein and for positioning fruit falling in the chute stem first into a predetermined position with the stem of the fruit projecting laterally from the chute, fruit righting means below the chute and having a portion engageable by laterally extending stems of fruit entering the same, and means for operating said intercepting means for subsequently admitting the fruit into the righting means for righting the fruit.

5. A machine for handling unstemmed cherries, comprising stationary fruit receiving means having a side wall provided with openings, means for depositing cherries one at a time into the receiving means, a deflector plate associated with the lower end of said receiving means and having an inclined surface for guiding the stems of cherries falling stem end down through an opening in said side wall of the receiving means, and means for withdrawing the deflector plate from 12 beneath the receiving means for releasing the cherries for gravitation with their stems disposed in other than a vertically downward position.

6. A mechanism for feeding unstemmed fruit into a fruit treating machine stem end up comprising fruit holding means, means for dropping one fruit at a time toward the fruit holding means, means for receiving the dropping fruit and for guiding the same toward said fruit holding means, means for obstructing the fall of fruit through said guiding means and having an inclined surface for engaging the stem of a fruit falling stem end first to turn the stem laterally as the fruit gravitates into position on the obstructing means, means operable in timed relation with said fruit dropping means for withdrawing said obstructing means out of the path of the obstructed fruit whereby the latter descends toward said fruit holding means, and means between said fruit holding means and said guiding means for rightening the stem of the fruit descending therefrom and for depositing the fruit with the stem end thereof in rightened position into said fruit holding means.

7. A fruit handling machine comprising downwardly converging rods forming a chute for receiving fruit one at a time and having a diagonally opened bottom, means for closing the bottom of said chute for obstructing the fall of the fruit therethrough and for deflecting the stem of fruit falling stem end first laterally of said chute, and means for withdrawing said obstructing means from beneath said chute for releasing the fruit for free fall therefrom with the stem of the fruit substantially laterally disposed.

8. In a fruit pitting machine, mechanism for feeding stem bearing fruit thereto comprising a plurality of downwardly converging bars of different lengths to form a cage having a diagonally disposed discharge opening at its lower end, means for depositing fruit one at a time into the upper end of said cage for free fall therethrough, means for closing said discharge opening whereby a fruit falling stem end first is deflected into a position with its stem extending laterally from said cage, means for withdrawing said closing means from said opening to release the fruit from said cage, and transfer means for receiving the fruit from the cage and for delivering the fruit to said pitting machine stem end up.

9. In a mechanism for feeding stem bearing fruit to a fruit pitting machine, a fruit receiving cage having downwardly converging bars of different lengths to form a diagonally disposed discharge opening, movable means normally disposed to close said opening for obstructing the free fall of fruit therethrough and for deflecting the stem of a fruit falling stem end first between said bars thereby positioning said fruit for gravitation with its stem end laterally disposed, means for momentarily withdrawing said movable means from obstructing position relative to said opening, reciprocable transfer means beneath said cage for receiving fruit from the cage and including a stern engaging portion engageable by laterally disposed stems of gravitating fruit, and means for reciprocating said transfer means whereby the latter deposits the fruit stem end up into said pitting machine,

10. In a fruit handling machine including means for holding individual fruit stem end up, mechanism for feeding fruit to said fruit holding means comprising downwardly converging rods forming a chute for receiving fruit and having a diagonally opened bottom, means for closing the bottom of said chute and engageable by the stem of a fruit falling stem end first into the chute for deflecting the stem thereof sidewise into a position laterally of said chute, transfer means beneath said chute and having a stem engaging rim engageable by a laterally extending stem of a falling fruit for turning the stem into a substantially vertical position, means for moving said chute closing means from beneath said chute to release the fruit for free fall into the transfer means, means for operating the transfer means for lowering the fruit toward said fruit holding means, and means for releasing the fruit from said transfer means for descent into said fruit holding means.

11. A mechanism for feeding unstemmed fruit into a fruit treating machine stem end up comprising fruit holding means, means for dropping one fruit at a time toward the fruit holding means, means for receiving the dropping fruit and for guiding the same toward said fruit holding means, means for obstructing the fall of fruit through said guiding means and having an inclined surface for engaging the stem of fruit falling stem end first to turn the stem laterally as the fruit gravitates, means operable in tiined relation with said fruit dropping means for withdrawing said obstructing means out of the path of the obstructed fruit whereby the latter descends toward said fruit holding means, and for engaging laterally extending stems of descending fruit whereby the fruit descends toward the fruit holding means stem end up.

12. A mechanism for feeding unstemmed fruit into a fruit treating machine stem end up comprising fruit holding means, means for dropping one fruit at a time toward the fruit holding means, means for receiving the dropping fruit and for guiding the same toward said fruit holding means, means for obstructing the fall of fruit through said guiding means and having an inclined surface i'or engaging the stem of a fruit falling stem end first to turn the stem laterally as the fruit gravitates, means operable in timed relation with said fruit dropping means for withdrawing said obstructing means out of the path of the obstructed fruit whereby the latter descends toward said fruit holding means, transfer means for receiving the descending fruit and having a stem engaging portion engageable by laterally disposed stems of descending fruit, and means for operating the transfer means for releasing the fruit for descent therefrom and for causing laterally disposed stems of descending fruit to swing into a substantially upright position to thereby deposit the fruit into the fruit holding means stem end p.

13. A feed mechanism for fruit pitting machines comprising a substantially vertical open ended chute formed of spaced members, means for dropping stem bearing fruit one at a time into the chute, means cooperating with said chute for intercepting the free fall of fruit therein and for positioning fruit falling in the chute stem first into a predetermined position with the stem of the fruit projecting laterally from the chute, reciprocable transfer means below the chute i'or receiving fruit from the chute and including a stem engaging portion engageable by laterally pro- :Iecting stems of falling fruit, means for reciprocating said transfer means whereby the latter deposits the fruit stem end up into said pitting machine, fiexible means associated with said intercepting means and adapted to enter said transfer means as the latter moves toward said chute for" dislodging fruit adhering to said transfer means, and means for operating said intercepting means and the flexible means for withdrawing the latter from the transfer means and for releasing the positioned fruit for descent into said transfer means.

BURTON C. COONS.

REFERENCES CITED The following references are of record in the file of this patent;

UNITED STATES PATENTS Number Name Date 1,698,477 Frova Jan. 8, 1929 2,154,412 Romberg et al. Apr. 12, 1939 2,251,158 Ogrodowy. July 29, 1941 FOREIGN PATENTS Number Country Date 625,009 France Apr. 18, 1927 Certificate of Correction Patent No. 2,429,991.

BURTON C. GOONS November 4, 1947.

It is hereby certified that errors appear in the srinted specification of the above numbered patent requiring correction as follows:

olumn 4, line 40, for the words the case read the same; column 8, line 64, for portion read portions; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the case in the Patent Office.

Signed and sealed this 16th day of March, A. D. 1948.

THOMAS F. MURPHY,

Assistant Oomma'euomr of Patents.

bottom of said chute and engageable by the stem of a fruit falling stem end first into the chute for deflecting the stem thereof sidewise into a position laterally of said chute, transfer means beneath said chute and having a stem engaging rim engageable by a laterally extending stem of a falling fruit for turning the stem into a substantially vertical position, means for moving said chute closing means from beneath said chute to release the fruit for free fall into the transfer means, means for operating the transfer means for lowering the fruit toward said fruit holding means, and means for releasing the fruit from said transfer means for descent into said fruit holding means.

11. A mechanism for feeding unstemmed fruit into a fruit treating machine stem end up comprising fruit holding means, means for dropping one fruit at a time toward the fruit holding means, means for receiving the dropping fruit and for guiding the same toward said fruit holding means, means for obstructing the fall of fruit through said guiding means and having an inclined surface for engaging the stem of fruit falling stem end first to turn the stem laterally as the fruit gravitates, means operable in tiined relation with said fruit dropping means for withdrawing said obstructing means out of the path of the obstructed fruit whereby the latter descends toward said fruit holding means, and for engaging laterally extending stems of descending fruit whereby the fruit descends toward the fruit holding means stem end up.

12. A mechanism for feeding unstemmed fruit into a fruit treating machine stem end up comprising fruit holding means, means for dropping one fruit at a time toward the fruit holding means, means for receiving the dropping fruit and for guiding the same toward said fruit holding means, means for obstructing the fall of fruit through said guiding means and having an inclined surface i'or engaging the stem of a fruit falling stem end first to turn the stem laterally as the fruit gravitates, means operable in timed relation with said fruit dropping means for withdrawing said obstructing means out of the path of the obstructed fruit whereby the latter descends toward said fruit holding means, transfer means for receiving the descending fruit and having a stem engaging portion engageable by laterally disposed stems of descending fruit, and means for operating the transfer means for releasing the fruit for descent therefrom and for causing laterally disposed stems of descending fruit to swing into a substantially upright position to thereby deposit the fruit into the fruit holding means stem end p.

13. A feed mechanism for fruit pitting machines comprising a substantially vertical open ended chute formed of spaced members, means for dropping stem bearing fruit one at a time into the chute, means cooperating with said chute for intercepting the free fall of fruit therein and for positioning fruit falling in the chute stem first into a predetermined position with the stem of the fruit projecting laterally from the chute, reciprocable transfer means below the chute i'or receiving fruit from the chute and including a stem engaging portion engageable by laterally pro- :Iecting stems of falling fruit, means for reciprocating said transfer means whereby the latter deposits the fruit stem end up into said pitting machine, fiexible means associated with said intercepting means and adapted to enter said transfer means as the latter moves toward said chute for" dislodging fruit adhering to said transfer means, and means for operating said intercepting means and the flexible means for withdrawing the latter from the transfer means and for releasing the positioned fruit for descent into said transfer means.

BURTON C. COONS.

REFERENCES CITED The following references are of record in the file of this patent;

UNITED STATES PATENTS Number Name Date 1,698,477 Frova Jan. 8, 1929 2,154,412 Romberg et al. Apr. 12, 1939 2,251,158 Ogrodowy. July 29, 1941 FOREIGN PATENTS Number Country Date 625,009 France Apr. 18, 1927 Certificate of Correction Patent No. 2,429,991.

BURTON C. GOONS November 4, 1947.

It is hereby certified that errors appear in the srinted specification of the above numbered patent requiring correction as follows:

olumn 4, line 40, for the words the case read the same; column 8, line 64, for portion read portions; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the case in the Patent Office.

Signed and sealed this 16th day of March, A. D. 1948.

THOMAS F. MURPHY,

Assistant Oomma'euomr of Patents. 

